US1861019A - Adjustable spring clip - Google Patents

Description

May 31, 1932. F. MAIN ADJUSTABLE SPRING CLIP Filed Aug. 1'7, 1927 A "wa r abtozmgo Patented May 31, 1932 uzrrnin ums er er EBA-NR1 L. MAIN OE JAGKSON;,MICHIG*AN, ASSIGNORrTO GENERZAL MOTORfiCORPORA TION, ,OF DETROIT, .MIGHIGAN, .A .;OORPORATION- OF? DELAWARE I ADJUSTABLE SPRING CLIP A Application filed'iAirgust' 17; 1927." Serial' No. 213,624.

This inventien relates to snubbersorspring clip shock: absorbers for-'leaf springs; and it is an object of this-inventien to-provide-a shock absorber of this type which is simple inconstruction and i eificient in operation;

Shock absorbers ofthis general type which are now in use may be divid'dintb two broad classes. The first class-includes those whieh clamp the spring at two-points in: the same planetransversely of the" spring, erg; the G-clamp} type; The" second class includes those which clamp the spring 'at t-hree points, one on the topand two on the bottcnr or vice versa. The" obj Petition to devices *of the first 'classis that; whiletheyexert 'a damping effect on v the spring upon movement-thereof in either-direction, as is desirable; theyjexert this dair-1pi-mggg;efict to substantially the same extent throughout" the range of movement of the spring The I objection to devices of the second class is that; while the damping effect of thecli'p increases-asthespring moves from its normal positioni in one-direction, as is desirable; it allows freeand" unresisted movement thereof'in' theether direct-inn;- It is an object or this; invention to provide a springz'clip which combinesthe good qualities of botlrthe-*c1ips-' described above and has none of the undesirable qualities of, either. I

Other objects of the invention will-be apparent ifroin tlre foll owing deseribtion of 'the preferred embodiment ofiny invention which is shown in the a-ccom-p an-ying drawings:

Intheaccompanyingdrawings: r

Figured is-a top planviewof iny improved spring clip,

Fign-re' 2 is} a view, taken :on the line 2'-2 ofrF-ignrefl showing'tlfe springcl-iij attached to a leaf-spring; g g I Figure 3 is a view taken on the -line"3"3 of"Fignre-' 2I 4 1 Figure i is a section taken on-the'line d i of Fign-re 2.

Myiclip includessaabody portion 5i-wh ieh is channehshapedti in. cross section and! is adaptedl to bep0sitioned on ai leaf spring 6 near one end thereof, as shown in'Figures 2, 3 andb. Intheweliofthe hody portion there is provided arlongitudinallv extending, centrally disposed, depressed portion 7 through whoseopposite ends extend set screws: 8 and: 9 oniwhich" are provided aoek nuts; 10 a11d 11; respectively. v The set screw 8 ha's a rorrnded'dcwer'end and the set screw 9 a p0inted flower end ade' ted te bear on the pel e The flanges of? th s body portion are substanti any rh'omboidal in f shape as shown in Figure 12 The fianges are' provided with a pair of registering key-hole slots '12 and 13 adjacent one end and substantially midway between the set screws} 8 and 9, and? with another pair of' regi'stering' key-hole slot-s14:

and 15 adjacent theother'end and at sub-s set I sta'ntially the same distance fromthe screw 9 -as arrests-12am- 135 Afpiri 16' is adapted to bridge the channe and extend 'thronghboth of the slots l2land 13. The -pin'-16f hasa centralilportion 17 of slightly smaller diameter than the larger upperporticns '18 of'tlfe key-hole slots12' and 13 and slightly'shorterthan the distance between the flanges; At each endithis central portion" is provided with a redncedneck 19 which isof slightly, smalleridia meter than the smaller lower-portions 20"of the keyhole slots and is slightlylongerthan the. thickness of the flange; Tlfeonter end of each neckis provided with a head 21ofsubstantiallythei same diameter astheeentral portion 17 This pin is -adapted to be*insertedthroughthe larger upper portions of theslots 12 and13luntil itsnecks register withth'e flanges when it wil-Idrop down into positien with the necks resting 'in'th'e "smaller lower portions of the key-hole--slots,'-as shown in the drawings; As longasthe' clip is clamped ona spring or is in the positioirshown in the drawings; the pin 16 will lremainrlin this "position [from which ment but must first be lifted until the heads register with the larger upper portions of the key-hole slots and then moved endwise out of the slots. Another pin 22 which is adapted to bridge the channel and extend into the slots 14 and 15 is constructed and operates similarly to the pin 16. The construction described above constitutes a simple and efficient means for removably securing the clip on a sprin Substantially midway between its ends each flange is provided with a depression 23 on its inner side. The reference character 24 indicates a strip of felt,'whose ends are adapted to lie in the depressions between the sides of the spring and the clip with the intermediate portion lying on top of the spring to prevent rattling of the spring and clip, and provide a lubricant retainer for oil which may be poured through the hole 25 provided for that purpose in the web immediately above the felt strip.

In applying the clip to a spring, the pins 16 and 22 are removed and the body member 5 with the felt 24 therein placed over the spring, as shown in Figures 2, 3 and 4. The,

pins are then inserted in the slots and the clip adjusted to the desired position on the spring,

which is preferably such that the set screw 8 is midway between the pin 16 and thespring shackle, with the pin 16 on the third, and the pin 22 on the fourth leaf from the top of the spring. The set screws 8 and 9 are then screwed up enough to give the desired amount of resistance.

In considering the operation ofmy clip two points should be borne in mind. One is that when a leaf spring flexes the leaves must move with respect to each other, i. e., slide on each other. The other is that the four points of contact of my clip with the spring form two substantially similar but reversed triangles 89-16 and 16229. When the spring is under normal load, it is substantially flat and is quite easily flexed. But when the vehicle hits a bump the spring bows upwardly at all points intermediate its ends which of course includes the portion between the pins 16 and 22. This bowing action will obviously cause a greater pressure between the spring and the clip at the points of contact of the set screw 9, and the pins 16 and 22 with the spring. This will cause a greater pressure between the leaves of the spring which causes the friction between them to increase and, since the leaves must slide on each other for the spring to bow and it requires an increasingly greater force to cause the'leaves to slide on each other due to the fact that the more the spring is bowed the greater will be the inter-leaf friction caused by the clip, the clip will exert a snubbing action which increases with the degree of flexure of the spring. The action of the spring in coming out of the bowed condition will obviously be resisted by the snubbing action of the clip to a constantly decreasing extent. WVhen the spring bows downwardly, as it usually does after bowing upwardly, a greater pressure will be set up between the spring and the clip at the points of contact of the set screws 8 and 9 and the pin 16 with the spring. This will cause the clip to exert a snubbing action similar to that exerted when the spring bowed upwardly. Thus my clip exerts snubbing action on the spring when it bows upwardly or downwardly and on return from either position.

The set screw 9 is pointed so that it can take a firm grip on the spring and prevent the clip moving bodily on the spring. But it is obvious that on bowing a portion of the spring must move longitudinally relative to the clip. In order to allow this freely, the spring should be able to move longitudinally relative to two of the three points of contact with the spring when bowing in either direction. On the upward bowing movement this longitudinal movement is obviously allowed at the points of contact of the spring with the pins 16 and 22, which may if necessary, rotate on their hearings in the flanges. On the downward bowing movement the pin 16 is one of the points at which the movement is allowed and the set screw 8 is formed wit h a rounded end (as shown in Figure 2) in order to hinder as little as possible the necessary movement at this point.

The clamp is secured snugly to the spring in the normal position thereof and the amount of snubbing exerted by the clip can be regulated by adjusting the set screws 8 and 9. It is to be noted that the snubbing action in one direction can be adjusted independently of that in the other direction since both of the set screws are adjustable.

My clip besides checking the flex and reflex action of thespring also makes it possible to break up synchronization between the four springs on an automobile chassis by adjusting the set screws on the clip on each spring so as to have a different degree of snubbing action 7 on the individual springs to force them out of step when encountering an obstacle which would ordinarily cause a pitch or tramp.

I claim:

1. The combination of a leaf spring and a clip having contact with the spring at two points on each side thereof, one of said points of contact being relatively fixed with respect to the spring and the other three being movable with respect to the spring.

2. Ina spring clip, a channel shaped body member having key hole slots in its flanges, and a pin having a reduced neck fitting into the slots.

3. In a spring clip, a body member channelshaped in cross section, a set screw having a rounded end threaded through the web of the channel adjacent one end thereof, a set screw having a pointedendthreaded through the 7 web of, "the channel adjacent the other end thereof, a removable pin bridging the flanges of the channel intermediate the two set Screws, and a. second removable pin bridging the flanges; of the channel.

4. In combination, with asupporting spring having a plurality 1 of superposed leaves, means for'automatically, increasing the, interleaf friction of-thespringa-t an increasing rate as the spring-is fiexeclin either direction from its normal loadposition, in-

cluding amember provided with portions contacting the spring at four polnts when the spring is in normal load position, two of said portions being located on each side of the spring and all of said portions being in substantially different planes transversely of the spring;

5. In combination with a supporting spring having a plurality of superposed leaves, means for automatically lncreasing the interleaf friction of the spring at an increasing rate as the spring is flexed in either direction from its normal load position, including a member provided with portions contacting the spring atfour points when the spring is in normal load position, two of said portions being located on each side of the spring, one of said lower portions being intermediate the two upper portions and one of the upper portions beinginterm-ediate thetwo lower portions longitudinally of the spring.

6. In combination with a leaves, means for automatically increasing 'the interleaf friction of the spring at an increasing rate as the spring is flexed in either direction from its normal load position, including a member provided with portions contacting the spring at four points when the 7 spring is in normal load position, two of said vportions being located on each side of th spring and said portions being so located that one of the upper portions and the two lower portions and one of the lower portions and the two upper portions define the vertices of two substantially. similar but reversed triangles.

7. In combination, a spring having a plurality of superposed leaves, means for automatically varying the interleaf friction of the spring as it is flexed from its normal load position, including a U-shaped member straddling said spring, means extending between the legs of said U-shaped member and engaging the outer face of one of the leaves,

and a pair of members extending through the connecting portion of said U-shaped member and each engaging the outer face of another of the leaves, said last-mentioned members being separately adjustable to vary the initial pressure between the spring leaves.

8. In combination, a spring having aplurality of superposed leaves, means for autosupporting I SUIHIU' havm a luralit of en er osed matically varying theinterleaf friction of H the spring as it is flexed in either direction from its normalload' position, including a U-rshapedmember straddling said spring, a pair ofz'members extending through the legs the outer face of one of the leaves, and a pair of members extending through the connectmg portion of said U-shaped member and each engaglng the outer face of another of the leaves, said last-mentioned members 7 being, separately adjustable to vary the initial pressure betweenthe-spring leaves.-

' 10. In combination, aspring having a plurality of superposed leaves and'means for automatically varying the interleaf frictionofthe spring as it is flexed in either direction from its normal load:position,'including a U-shaped member straddling the spring, means'extending between the legs of said U-shaped member and e'ngagingthe outer face of one of "the leaves, and a pair of '11 embers extending through the connecting portion of said U-shaped'member, one of said last-mentioned members frictionally engagthe spring so as to "prevent movement of said u shaped member on the spring, the'other of said last-mentionedmembers engaging a leafof the springandbeingadapted to slide on: thesurface thereof where the spring flexes. i i i llieIna device of the class described, a ch'anne-l sliaped member, a pair of longitudinally spaced members extending bet-ween the flanges of said'channel, anda pair of longitudinally spaced members extending through the Web of said channebshapedmember.

12. n1 a device of: theclass describedfa channel shaped,member, "a pair of longitudinally spaced membersextendingbetween the flanges of said channel-shapedmember, and a pair of longitudinally spaced members extending through the web ofsaid channelshaped' member, each ofsaid last-mentioned members being in a different planetransversely of the channenshaped member.-

13; In a device of'the class described; I a channelshaped member, a pair of longitudinally spaced members extending between the; flanges; oft saida channel-shaped memb'e ing-the outer face of another of the leaves of 1 ofzsaidiU-shaped' member and each:engaging; 3

a pair of longitudinally spaced members extending through the web of said channelshaped member, one of said last-mentioned members being located intermediate the two secondanentioned members and one of the two second-mentioned members being located intermediate the tvo last-anentioned members longitudinally of the channel-shaped member.

14. In a device of the class described, a channel-shaped member, a pair of longitudinally spaced members extending between the flanges of said channel-shaped member, and a pair of longitudinally spaced members extending through the web of said channelshaped member, one of the second-mentioned members and the two lastanontioned memhers and one of the last-mentioned members and the two second-mentioned members defining the vertices of two substantially sim ilar but reversed triangles.

15. The combination with a supporting spring having a plurality of superposed leaves of a member provided with portions contacting the spring at four points when the springis in normal load carrying position: two of said portions being located on each side of the spring and all of said portions'being in substantially dilierentplanes transversely of the spring, one of said intermediate portions being relatively fiXed with respect to the spring.

16. The combination with a supporting: spring having a plurality of superposed leaves of-a member provided with portions contacting the sprin at four points when the spring is in normal load carrying position: two of said portions being located on each side of the spring and said portions be ing so located that one of the upper portions and the two lower portions and one of the lower portions and the two upper portions define the vcrtices of two substantially similar but reversed triangles, one of said in tcrmediate portions being relatively fixed with. respect to the spring.

17. The combination with a supporting spring which includes a plurality of superposed leaves, of means for automatically increasing the interleaf friction of the spring the spring is flexed, and for supplying lubricant to the spring including a clip having a portion substantially parallel with the faces of the leaves of the spring, and portions on opposite sides of the leaves, and a lubricant retaining member extending be tween the last-mentioned portions and the spring and between the first-mentioned portionand the spring, but spaced from the first-mentioned portion.

18. The combination with a supporting spring which includes a plurality of superposed leaves, of means for automatically increasing the inter-leaf friction of the spring as the spring is flexed, and for supplying lu-

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